KR101188952B1 - Using airgel manufacturing method and heat insulation pipe insulation - Google Patents

Abstract

PURPOSE: A method for manufacturing a heat-retaining and insulating material for pipes with aerogel is provided to prevent the gaps between the particles of the aerogel from becoming broken by rolling the aerogel with a special elastic rubber plate. CONSTITUTION: A method for manufacturing a heat-retaining and insulating material for pipes with aerogel comprises following steps. Insulation materials are overlapped across each other in order that a fitting portion is formed on the insulation materials and a coupling groove is formed in the lower part of the insulation materials. The insulation materials are placed between a long axis pipe(110) and a shape retaining plate(300) in a machine(1) for manufacturing the insulation materials. The shape retaining plate is roundly rolled by rotating an operating piece(200). The rolled insulation materials enclose the long axis pipe, and are formed into a circle shape. The heat-retaining and insulating material is manufactured by drying and compressing the insulation materials.

Description

Using airgel manufacturing method and heat insulation pipe insulation

The present invention relates to a method for manufacturing a pipe insulation insulation using an airgel, and specifically, the present invention can be constructed in a short time by forming an airgel with excellent insulation power, and a pipe insulation insulation manufacturing method using an airgel with a beautiful appearance after installation. And to thermal insulation.

In general, large structures such as heat exchangers, various pipes, and appliances use thermal insulation materials in order to prevent the temperature of the internal fluid from decreasing or to prevent workers from being damaged by these structures in high or low temperatures.

However, the conventional thermal insulation material is insulated in a narrow space that was not considered in the design, energy loss due to formal thermal insulation, corrosion of internal thermal pipes (CUI), overdesign of the support such as pipe racks with abnormal insulation volume, the insulation itself Insulation effect and durability decrease due to moisture absorption, insulation and damage to the insulation during walking, damage to the human body according to the components of the insulation, transportation and storage problems, etc. As a heat insulating material to solve such problems, pearlite and glass fiber The family is mainly used.

The pearlite has the advantage of low material cost, but weak to moisture, high weight and high volume, breakage and breakage during impact, industrial wastes are generated.

On the other hand, the glass fiber has the advantage of having a high heat resistance, but there is a problem that the glass needle's harmfulness, human hazards are raised and the performance and durability are degraded by water absorption.

If moisture is absorbed into the insulation, the leaked heat is transferred to the support structure, so that the temperature at the bottom of the pipe is markedly different from the temperature at the top, thereby attenuating the insulation performance.

This caused a waste of thermal energy due to a decrease in thermal efficiency due to heat loss.

Therefore, as a way to solve the above problems, domestic application No. 10-2008-0012329 "Insulation insulation for air conditioning duct using aerogel and its construction method" has been proposed.

The properties of the airgel is 90-99.8% of the air, the density is usually 3-150 mg / cm3. The airgel feels like styrofoam, but it's not soft and won't restore when pressed once. If you press very hard, it breaks into pieces like glass. Although it has a cracking property, it is structurally very strong and can lift 2000 times its own weight. This is due to the microstructure in which spherical particles of 2-5 nm size combine to form branched clusters. These clusters form three-dimensional fractal-like meshes that form porous structures with pores smaller than 100 nm. The average size and density of pores can be controlled during the manufacturing process.

In addition, aerogels exhibit significant thermal insulation performance because they neutralize the three methods of heat transfer: convection, conduction and radiation. The reason for effectively blocking convection is that air cannot circulate through the pores. The reason for effectively blocking the conduction of silica airgel is that silica is a poor thermal conductive material. (Metal aerogels, on the other hand, can be better thermal conductors.) Carbon aerogels effectively block radiation because carbon absorbs infrared radiation, which causes heat transfer. The best adiabatic airgel is carbon-added silica airgel.

The airgel feels dry due to its hygroscopicity and acts as a powerful dehumidifier. Most of them are made of air, so they are translucent, and the color comes from the scattering of short wavelengths of visible light due to the nano-sized resin structure. This results in a bluish color on a dark background and white on a light background.

Aerogels are hydrophilic by themselves, but can be made hydrophobic through chemical treatment. Absorption of water causes structural changes, such as shrinkage or decomposition, which makes it hydrophobic and can prevent it. The hydrophobic treatment to the inside prevents the aerogel from decomposing even if deep cracks occur. If hydrophobic treatment is applied, waterjet cutting can be performed.

As shown in FIG. 1, the heat insulating material using the airgel is composed of an airgel plate 10 and a winding member 20, and the airgel plate 10 is formed of an airgel material.

At this time, the airgel plate 10 is added to the additives and the fiber structure, by applying a supercritical drying method to completely extract the liquid component from the gel state reinforced with the fiber structure to prevent the airgel particles from breaking or breaking Is formed.

The winding member 20 is formed in a thin plate shape to surround the airgel plate 10, but was formed of a material that reflects heat using aluminum thin plates or aluminum laminating.

Looking at the process installed in the air-conditioning duct using the thermal insulation material as described above,

First, the airgel plate 10 is cut out by adding an extra of about 10% to 20% of the circumferential length of the air conditioning duct 1.

Subsequently, when each airgel plate 10 is wrapped around the air conditioning duct 1, the airgel plate 10 is overlapped with each other by an extra length to completely surround the circumference.

Next, the fixing member 11 is used to fix the airgel plate 10 to the air conditioning duct 1.

At this time, the fixing member 11 may be used by various means such as adhesive, tape or wire.

Next, the winding member is wound around the airgel plate 10 wound around the air conditioning duct 1.

Next, the winding member 20 surrounding the airgel plate 10 was fixed by wrapping the circumference using the finishing fixing member 21.

However, the airgel plate 10 installed as described above, when the air duct (1) is wrapped, the airgel and the airgel overlap, the space is created, and the lifting effect occurs when the fixing member using a fixing member wire, etc. Was lowered.

In addition, the appearance was not good after the construction.

In addition, the construction time is long, there was a problem that a lot of unnecessary subsidiary materials are required.

As another example, Japanese Patent Application Laid-Open No. 2010-85059 discloses a heat insulating device and a heat insulating method for an air conditioner duct.

That is, it is a thermostat and a thermal insulation method of the air conditioning duct piped indoors,

The thermal insulation sheet is a surface paper adhered to the surface of the heat insulating material such as glass wool (glass wool).

When the insulation sheet is wound around the tube, one or more sheet joining bands are provided in the surface layer in a direction orthogonal to the longitudinal direction of the tube, and the sheet joining band has a male-type locking claw at one end. A male engaging portion is formed, and a male engaging claw and a female engaging piece to be engaged are formed at the other end.

The direct tube was wound around the heat insulating sheet or the elbow tube was wound around the elbow insulating sheet, and both of the insulating sheets were bonded to the sheet joining band, and the sheet fixing tape was adhered to the joints of the respective insulating sheets.

However, such a thermal insulation device has the advantages and disadvantages that the thermal insulation power is lower than when using the former airgel, but excellent in the construction method and beautiful appearance.

In order to solve the above problems, Korean Patent No. 0884092 has been filed "Method and apparatus for forming pipe insulation using aerogel blanket".

That is, as shown in FIG. 3, the airgel blanket material (B1) is wound in two layers on the forming rod 10 having a circular outer circumference such as a pipe to be insulated, and the surfaces contacting each other at the overlapped portions are adhesive (P). In the case of aerogel blanket material, if it is wound up, it is released again and the original flat appearance is unfolded.As described above, the airgel blanket material (B1) is wound into two or three layers or more, and the overlapped portion is After the glued portions are held together in a circular state by being pulled together by bonding with the adhesive P, the airgel blanket B2 wound around the forming rod 10 is pressed using the pressing means 40. One side was then cut in the longitudinal direction.

Pipe insulation material forming method using aerogel blanket and its forming apparatus is wound by overlapping the airgel blanket to the size that can wrap the pipe to cut the one side in the longitudinal direction to form a pipe insulation material to maintain the shape surrounding the pipe to the pipe by forming Winding workability can be improved.

However, the above method is to roll the airgel plate into the molding machine and roll it like a roll in two or three layers or more, depending on the thickness of the insulation, which is a problem that the circumferential, longitudinal direction of the airgel molded product can only be straight. It has a disadvantage that the insulation performance is significantly reduced at the joint.

Accordingly, an object of the present invention is to conceive in view of the conventional problems as described above, and can be installed in a short time by forming an airgel with excellent thermal insulation power, pipe insulation insulating material using an airgel made beautiful appearance after installation To provide.

Another object of the present invention is not to roll the aerogel sheet like a roll of paper rolls on a roller, but to cut the insulation to fit the insulation thickness on a flat floor to meet the standard, two or three sheets of thin adhesive on the floor, then a molding machine While pushing the specially designed elastic rubber plate lightly, the airgel plate is molded into a circle, and when the guide bar mounted on the rubber plate is rotated two or three times in a circle, the airgel plate is formed into a circle without excessively compressing the airgel plate. When the molding is completed, by attaching an adhesive to the end of the molding, the joints in the longitudinal direction and the circumferential direction are jointed in a staircase form, so that the pipe insulation insulating material using airgel can be manufactured to minimize heat loss. have.

Another object of the present invention is to cut the plate to a certain size according to the outer diameter of the pipe before forming the airgel plate, and then bonded using an adhesive in a step shape, and then by making a circular molded product in the manufacturing apparatus, The circumferential joints are joined in a staircase to minimize heat loss.

The present invention is wrapped in a boiler or other pipe with a high temperature change in the airgel thermal insulation to prevent the temperature drop of the object or to protect the operator from the object,

Forming a fitting portion at an upper end of the heat insulating material, and bonding the insulating material so as to overlap each other so as to have a coupling groove in a lower portion (S1); And

Step (S2) to be located in the lower elongated long-axis pipe formed in the center of the heat insulating material manufacturing apparatus main body to form the heat insulating material in a circular shape (S2); And

Supplying power to the power supply means after the insulation is installed on the long elongated pipe and the shape maintaining plate (S3); And

Rotating the working piece by the power supply to round the shape retaining plate (S5); And

Step (S6) to surround the elongated long-axis pipe by the insulating member by the rolling operation of the shape holding plate (S6); And

Pressing and drying a plurality of heat insulating materials dried in the circular shape to complete an insulating heat insulating material (S7);

Characterized in that, by the manufacturing method of the heat insulating material was formed in the upper portion, to prepare a heat insulating heat insulating material formed with a coupling groove at the bottom.

According to the present invention, the plate is cut to a certain size according to the outer diameter of the pipe before the airgel plate is inserted, and then bonded using an adhesive in a stepped shape, and then the joints in the longitudinal direction and the circumferential direction are made by forming a circular molded product in the molding machine. It has the effect of minimizing heat loss as it is connected to the staircase type and by using special elastic rubber sheet to roll the airgel without using the roller when forming the airgel. Pipe insulation insulating material using an airgel can be produced.

1 is a perspective view showing an insulating heat insulating material for an air conditioning duct using a conventional airgel.
Figure 2 is a cross-sectional view of the thermal insulation insulation for air conditioning ducts using a conventional airgel.
3 is a view showing a pipe insulation molding apparatus using a conventional airgel blanket.
Figure 4 is a view showing a state in which the pipe insulation insulation using the airgel according to the present invention combined in two.
Figure 5 is a view showing a part of the pipe insulation insulation manufacturing apparatus using an airgel according to the present invention.
6 is a view showing a state before processing the pipe insulation insulating material using an airgel according to the present invention.
7 is a view showing a state of processing the pipe insulation insulating material using the airgel according to the present invention.
8 is a view showing a completed forming foam of the pipe thermal insulation using an airgel according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation according to the present invention. In the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and duplicate description thereof will be omitted. The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

In addition, in the description of the present invention, some components are installed symmetrically with each other, and description thereof will be omitted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the manufacturing apparatus 1 for manufacturing the heat insulating material of the present invention will be described with reference to FIG. 4 or 5.

As shown in FIG. 4, the heat insulating material 30 is formed to overlap each other so as to have a fitting portion 31 and a coupling groove 32.

In addition, the manufacturing apparatus main body 100 for forming the heat insulating material 30 as shown in FIG. Elongated long-axis pipe 110 in the center is installed to be fixed only one side.

This corresponds to a mold for rolling the heat insulating material 30 in a circle.

In addition, the diameter of the long long-haul pipe 110 has a variety of diameters to wrap the target pipe to be installed, it is installed interchangeably depending on the intended use.

For example, it is preferable to install in the structure of the chuck of a general shelf.

In addition, first and second fixing rods 120 and 130 are installed at both sides of the main body 100 and 100 with respect to the long elongated pipe 110.

At this time, the fixing rod 120 is fixed to the other wall surface of the main body 100, the support rod 121 for supporting the shape maintaining plate 300 is installed.

Both sides of the first fixing rod 120 are provided by a pair of operating pieces (200, 200 ') operated by hydraulic pressure or pneumatic and having the same shape.

An arc-shaped guide hole 201 is formed in the operation piece 200, and a first operation interval 220 operated along the guide hole 201 is provided.

A straight guide hole 221 is formed in the first operation period 220.

In addition, the first operation 220 is fixed between the first and the second connection (222, 223).

That is, the first connecting portion 222 is fixed between the arc-shaped guide hole 201 and the linear guide hole 221, the second connecting portion 223 is between the operating piece 200 and the first operation 220 ) Is fixed to the straight guide hole 221.

 In addition, one end of the first operation interval 220 is rotatably fixed to the first guide pipe 250.

In addition, a second operating section 230 having a linear guide hole 231 is rotatably installed in the second fixing section 120.

That is, the guide hole 231 of the second operation period 230 is fixed to the upper portion of the main body 100 through the second fixing interval 130.

In addition, one end of the second operation period 230 is fixed to the second guide pipe 260.

The shape maintaining plate 300 is installed to surround the support rod 121 and the guide pipes 250 and 250 ′.

The shape-retaining plate 300 is to wrap the long elongated pipe 110 to form a circular shape of the airgel plate without excessively compressing the elasticity of the airgel plate to form a rubber plate.

In addition, an adjusting unit 400 is provided between the first and second guide pipes 250 and 260 to adjust the tension of the shape maintaining plate 300.

The adjusting unit 400 has a long hole 111 formed vertically long in the center of the main body 100, a long axis 410 to move up and down along the hole, and for fixing the long axis to the main body 100 The adjusting nut 420 is made.

At this time, the adjustment unit 400 is installed in the same configuration on both sides of the main body 100.

In addition, the operation piece 200 and the first and second operations 220 and 230 are operated by the power transmission means 500.

The power supply unit 500 includes a power switch and a power plug (not shown), and the working piece 200 includes a cylinder and a piston rod (not shown) operated by pneumatic or hydraulic pressure.

Therefore, the method of manufacturing the thermal insulation material using the pipe insulation insulation manufacturing apparatus 1 using the airgel configured as described above with reference to the angle as follows.

First, the insulating material 30 shown in FIG. 4 is bonded in advance to overlap each other.

At this time, it was formed to have a predetermined area to have a fitting portion 31 and the coupling groove 32 on the top and bottom to shift each other (S1).

As shown in FIG. 6, the heat insulating material 30 formed as described above is placed on the upper surface of the shape maintaining plate 300 and the lower long elongated pipe 100 (S2).

Next, when the power supply means 500 is supplied with power, hydraulic or pneumatic pressure is generated in a cylinder (not shown). The piston (not shown) is operated by this pressure to move the operating piece 200 in the direction of arrow A in FIG. It is rotated to (S3).

Then, the first operation section 220 installed on the operation piece 200 and the second operation section 230 installed opposite to each other proceed in the direction of arrow B along the straight guide holes 221 and 231.

Then, the shape maintaining plate 300 is rounded (S4), at this time, the heat insulating material 30 installed on the shape maintaining plate 300 is completed in a circular shape surrounding the long elongated pipe (110) (S5). .

Therefore, as described above, the completed thermal insulation material is taken out to the exposed portion of the long long-axis pipe 110 to complete the molded article O shown in FIG. 9.

Next, the insulating insulation molded product completed as described above was pressed and dried.

Although the present invention has been described with reference to the above-described preferred embodiments and the accompanying drawings, different embodiments may be constructed within the spirit and scope of the invention. Therefore, the scope of the present invention is defined by the appended claims, and should be construed as not limited to the specific embodiments described herein.

1: Insulation material manufacturing apparatus 30: Insulation board
31: fitting portion 32: coupling groove
100: main body 111: long hole
110: long long pipe 120,130: fixed interval
200: operation piece 201: guide hole
210: connecting piece 220,230: between operation
221,231: Straight Guide Hole
250,260 guide pipe 300 shape holding plate
400: control part O: completed thermal insulation

Claims (2)

In an airgel thermal insulation to wrap a boiler or other pipe with high temperature change to prevent the temperature drop of the object or to protect the worker from the object,
Forming a fitting portion on an upper end of the heat insulating material, and forming a fitting portion to be overlapped with each other so as to have a coupling groove in a lower portion (S1); And
Step (S2) to be located in the lower elongated long-axis pipe formed in the center of the heat insulating material manufacturing apparatus main body to form the heat insulating material in a circular shape (S2); And
Supplying power to the power supply means after the insulation is installed on the long elongated pipe and the shape maintaining plate (S3); And
Rotating the working piece by the power supply to round the shape retaining plate (S5); And
Step (S6) to surround the elongated long-axis pipe by the insulating member by the rolling operation of the shape holding plate (S6); And
Pressing and drying a plurality of heat insulating materials dried in the circular shape to complete an insulating heat insulating material (S7);
Pipe insulation insulation manufacturing method using an airgel characterized in that the. In an airgel thermal insulation to wrap a boiler or other pipe with high temperature change to prevent the temperature drop of the object or to protect the worker from the object,
The airgel plate is formed at the top of the fitting portion 31, and formed by overlapping with each other to have a coupling groove 32 in the lower portion to be bonded to each other, and to form a circular shape of the airgel plate body 100 to the center After being positioned in the lower long elongated pipe 110 and the top of the shape holding plate 300 formed in the power supply to the power supply means, by rotating the operating piece (200,200 ') operated by this power supply to maintain the shape After rounding the plate 300, the aerogel plate is wrapped and dried by the rolling operation of the shape-retaining plate 300 so that it is maintained in a circular shape and compressed and dried, which is obtained by using the airgel. Pipe insulation insulation.

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